I am contemplating a fixed-point arithmetic library, and in order to decide on how much optimization should be done by the library itself (through expression templates) I started questioning how much will already be done by the optimizer. Take the following example for instance:

```
//This is a totally useless function to exemplify my point
void Compare(FixedPoint a, FixedPoint b) {
if(a/b>10) {
... do stuff
}
}
```

Now, in this function, a typical implementation of the `FixedPoint`

class will cause

```
if( ( (a_<<N) / b_) > (10 <<N) ) {
... do stuff
}
```

Where `N`

is the number of fractional bits. That expression could **mathematically** be transformed into:

```
(a_ > 10*b_)
```

even though this transformation will **not** result in the same behavior when you consider integer overflow. The users of my library will presumably care about the mathematical equivalence and would rather have the reduced version (possibly provided through expression templates).

Now, the question is: Will the optimizer dare do the optimization itself, even though the behavior is not strictly the same? Should I bother with such optimizations? Note that such optimizations aren't trivial. In reality, you rarely have to do any bit shifts when you're using fixed-point arithmetic if you actually do these optimizations.

`for(int i=0;i>=0;i++);`

if I recall corectly). However I am ot entirely sure about this. – ted Oct 15 '12 at 9:40introduceoverflows if`10*b_`

goes over. So even if`a/b`

doesn't overflow,`10*b_`

could. So the compiler can't do it without promoting to a larger type. – Mysticial Oct 15 '12 at 9:42